SU1678457A1 - Apparatus for controlling column flotation process - Google Patents

Abstract

This invention relates to the enrichment of minerals by the flotation process. The goal is to improve the accuracy of control of the flotation process by stabilizing the density of the pulp fed to the control flotation. The device contains a flowmeter 14 solid source pulp, connected through a regulator / R / 18 reagent consumption with the actuator / IM / 19 reagent supply to flotation. Additionally, the device is equipped with a density control floatation density sensor / DP / 20 connected to R 23 of the air flow of the aero-lift device and P 21 changes in the height of the intake device 10 of the aero-lift device. The electrical signal from the output of the flow meter 11 is fed to the input The operation of the IM 19 directly proportional to the magnitude of the signal from the flow meter 14, and the change in the solid flow rate changes the density of the pulp entering the control flotation, which is signaled by the DC 20. The output from the DC 20 is fed to the input P 21, which controls IM 22, changing the height of the intake of the main flotation tailings from the sand chamber 8. At the same time, the signal from DP 20 enters the input P 23 controlling the operation of IM 24, which regulates the air flow entering the perforated nipple 13 rigidly connected to the chamber 8 1 or . cl

Description

The invention relates to the beneficiation of minerals by the flotation method, in particular, to devices for automating the flotation process in pneumatic column flotation machines.

The purpose of the invention is to improve the accuracy of control by stabilizing the density of the pulp supplied to the control flotation.

The drawing shows a control device placed on a pneumatic column flotation machine.

The device comprises a chamber 1 of a column machine, separated by a vertical partition into insulated compartments 2 and 3, a loading device 4 for supplying the initial pulp to the main flotation made in the upper part of the insulated compartment 2, a chamber product unloading device 5 located in the upper part of the insulated compartment 3, as well as devices 6 for unloading the foam product installed in the upper part of compartments 2 and 3. At the lower part of compartments 2 and 3, aerators 7 are located, as well as sand chambers 8 connected to the compartments by and windows 9 and made under aerators 7. In each insulated compartment of the chamber of machine 1, airlift devices are installed, each of which includes a intake 10 and a discharge device 11, articulated between each other by an elastic corrugated pipe 12. Intake devices 10 are located in the sand chambers 8 of the main and control flotations and include perforated nozzles 13 air supply, rigidly connected to them and made with the possibility of vertical movement. The unloading device 11 of each airlift device is made in the form of a pipe in a pipe with the possibility of its regulation along the height of the airlift device. At the input of the loading device 4, a solid flow meter 14 is installed, which includes a pulp flow meter 15, a pulp densimeter 16 and a multiplying device 17, to the input of which electric signals are supplied from the inputs of the flow meter 15 and the density meter 16, and the output is connected to the input of the reagent flow controller 18, which controls the operation actuator 19. The actuator 19 for supplying reagents for flotation, controls the operation of the valve installed on the nozzle of their supply to the chamber of the column machine

1. In the isolated compartment 3 there is a densitometer 20 of the pulp supplied to the control flotation, the output of which is connected to the input of the regulator 21 for changing the height of the intake device 10 of the airlift device, which controls the operation of the actuator 22 for changing the height of the intake device 10 in the sand chamber 8 of the isolated compartment 2. Exit the densitometer 20 is also connected to the input of the regulator 23 of the air flow supplied to the airlift device, and acting on the actuator 24 to regulate the flow rate supplied to airlift device of air.

The device operates as follows.

The initial pulp, pretreated with reagents, enters the chamber of the machine 1 through the loading device 4. The easily floated mineral particles of the pulp are fixed on air bubbles rising from the aerators 7 and are discharged through the device 6 for unloading the foam product, located in the upper part of the insulated compartment 2. particles are lowered into the sand chamber 8 of compartment 2, where they are washed away by a stream of air coming from the perforated nozzle 13 for air supply, they are sucked into the intake in autonomous 10 and through the discharge device 11 comes into the isolated compartment 3. Trudnoflotiruemye mineral particles moving in countercurrent with air bubbles rising from the aerator 7, are fixed in their vials, and submitted to a foam product through the device 6 for discharging the froth product. The waste rock is removed from the chamber of the machine 1 through the device 5 for unloading the chamber product using an airlift device. When moving the intake device TO along the height of the sand chamber 8 of the insulated compartment 2, the elastic corrugated pipe 12 deforms, which is necessary to prevent the unloading device 11 from moving along the height of the airlift device.

During the flotation process in the chamber of the pneumatic column machine 1, the flow rate of solid supplied to the isolated compartment 2 is measured by the flowmeter 14 of the solid by multiplying, by means of a multiplying device, 17 sitnals coming from the outputs of the flow meter 15 of the pulp and the density meter 16 of the pulp, Electrical signal from the output of the flow meter 14 solid is fed to the input of the controller 18 of the flow of reagents, which controls the operation of the actuator 19 is directly proportional to the magnitude of the signal received from the flow meter 14 solid. The actuator 19 for supplying reagents acts on the valve mounted on the pipe supply of reagents for flotation. When you change ί the flow rate of solid supplied in the process, there is a change in the density of the pulp entering the control flotation, which is controlled by the pulp density sensor 20. An electrical signal from the output 1 of the sensor 20 is fed to the input of the regulator 21 for changing the height of the intake device 10 in the sand chamber 8 of compartment 2, which controls the operation of the actuator 22 for moving the intake 1 of the device 10 along the height of the sand chamber 8. The height of the tailings of the main flotation is changed from the sand chamber 8, thereby adjusting the density of the pulp supplied to the control flotation 2. To prevent the supply of pulp to the control flotation under the foam layer or on it from a certain height, which can occur when the height of the airlift device changes with a constant flow rate of 2 air supplied to it, it is necessary to adjust the performance of the airlift device. This is done by adjusting the flow rate of air entering the perforated pipe 13. 3 For this, an electric signal from the output of the pulp density sensor supplied to the control flotation 20 is fed to the input of the air regulator 23, which enters the airlift device, and controls 3 the operation of the flow control actuator 24 air. The actuating mechanism 24 acts on the valve mounted on the perforated nozzle 13 for supplying air to the airlift device.

Thus, in the chamber of a pneumatic column of a multi-capacity machine, including the main and control flotation with airlift transportation of industrial products, by stabilizing the density of the pulp supplied to. control flotation, increase the accuracy of control of the control flotation process, which allows to increase the extraction and increase the quality of the resulting concentrate.

Claims (1)

Claim A device for controlling the flotation column process, comprising a flowmeter of solid feed pulp, connected through a reagent flow regulator to an actuator for supplying flotation reagent, characterized in that, in order to improve the control accuracy by stabilizing the pulp density supplied to the control flotation, it is equipped with a sensor the density of the pulp of the control flotation, the air flow regulator of the airlift device and the regulator of changing the height of the intake device of the airlift device, When this control flotation pulp density sensor output coupled to the controller changes the height of the intake device airlift device and the air flow regulator airlift device.